2019
DOI: 10.1063/1.5085679
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Theoretical evaluation of electronic density-of-states and transport effects on field emission from n-type ultrananocrystalline diamond films

Abstract: In the nitrogen-incorporated ultrananocrystalline diamond ((N)UNCD) films, representing an n-type highly conductive two-phase material comprised of sp 3 diamond grains and sp 2rich graphitic grain boundaries, the current is carried by a high concentration of mobile electrons within the large-volume grain boundary networks. Fabricated in a simple thinfilm planar form, (N)UNCD was found to be an efficient field emitter capable of emitting a significant amount of charge starting at the applied electric field as l… Show more

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Cited by 15 publications
(15 citation statements)
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“…It should be noted that in the context of the obtained results and the proposed emission mechanism, the near surface region always has a certain amount of accumulated charge that makes the charge-field relation Fowler-Nordheim-like, with no observable saturation effects [26] due to low duty cycle of the ACT beamline. Therefore, the application of the classical Fowler-Nordheim law is plausible: it simplifies analysis and makes comparison between different geometries and material modifications reasonably good.…”
Section: Discussionmentioning
confidence: 67%
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“…It should be noted that in the context of the obtained results and the proposed emission mechanism, the near surface region always has a certain amount of accumulated charge that makes the charge-field relation Fowler-Nordheim-like, with no observable saturation effects [26] due to low duty cycle of the ACT beamline. Therefore, the application of the classical Fowler-Nordheim law is plausible: it simplifies analysis and makes comparison between different geometries and material modifications reasonably good.…”
Section: Discussionmentioning
confidence: 67%
“…Given the strong overlap (enhanced charge exchange) between π − π * bands, a large number of electrons is expected to collect near the surface (metalizing it), and to tunnel through the surface barrier with a larger probability as they have higher energy positions inside the material as compared to the states normally occupied without external field perturbation. It results in high charge carrier concentration and metallic-like behavior which further leads to a high field enhancement factor and low turn-on field [26]. In sp 2 -poor (N)UNCD, on the other hand, electrons could only come from the π (or Σ) band with lower probability of tunneling through the thicker surface barrier, resulting in a low field enhancement factor and high turn-on field [26].…”
Section: Discussionmentioning
confidence: 99%
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